Facile synthesis and fundamental properties of an -methylguanidine-bridged nucleic acid (GuNA[NMe])
An N -methylguanidine-bridged nucleic acid (GuNA[NMe]), a guanidine-bridged nucleic acid (GuNA) bearing a methyl substituent at the bridge, was successfully synthesised and incorporated into oligonucleotides. By employing an acetyl protecting group, GuNA[NMe]-modified oligonucleotides bearing acid-s...
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| Veröffentlicht in: | Organic & biomolecular chemistry 2018-09, Vol.16 (35), p.6531-6536 |
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| container_end_page | 6536 |
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| container_issue | 35 |
| container_start_page | 6531 |
| container_title | Organic & biomolecular chemistry |
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| creator | Horie, Naohiro Kumagai, Shinji Kotobuki, Yutaro Yamaguchi, Takao Obika, Satoshi |
| description | An
N
-methylguanidine-bridged nucleic acid (GuNA[NMe]), a guanidine-bridged nucleic acid (GuNA) bearing a methyl substituent at the bridge, was successfully synthesised and incorporated into oligonucleotides. By employing an acetyl protecting group, GuNA[NMe]-modified oligonucleotides bearing acid-sensitive purine nucleobases were successfully prepared. The obtained GuNA[NMe]-modified oligonucleotides exhibit excellent binding affinity towards the complementary single-stranded RNA and DNA. Furthermore, even a single GuNA[NMe] modification provides robust enzymatic stability, similar to that achieved by the well-established phosphorothioate backbone modification. These data indicate that such a GuNA[NMe] represents a valuable modification for the development of therapeutic oligonucleotides.
The GuNA[NMe]-modified oligonucleotides exhibited excellent duplex-forming ability towards the complementary single-stranded DNA and RNA, and showed robust enzymatic stability. |
| doi_str_mv | 10.1039/c8ob01307a |
| format | Article |
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-methylguanidine-bridged nucleic acid (GuNA[NMe]), a guanidine-bridged nucleic acid (GuNA) bearing a methyl substituent at the bridge, was successfully synthesised and incorporated into oligonucleotides. By employing an acetyl protecting group, GuNA[NMe]-modified oligonucleotides bearing acid-sensitive purine nucleobases were successfully prepared. The obtained GuNA[NMe]-modified oligonucleotides exhibit excellent binding affinity towards the complementary single-stranded RNA and DNA. Furthermore, even a single GuNA[NMe] modification provides robust enzymatic stability, similar to that achieved by the well-established phosphorothioate backbone modification. These data indicate that such a GuNA[NMe] represents a valuable modification for the development of therapeutic oligonucleotides.
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-methylguanidine-bridged nucleic acid (GuNA[NMe]), a guanidine-bridged nucleic acid (GuNA) bearing a methyl substituent at the bridge, was successfully synthesised and incorporated into oligonucleotides. By employing an acetyl protecting group, GuNA[NMe]-modified oligonucleotides bearing acid-sensitive purine nucleobases were successfully prepared. The obtained GuNA[NMe]-modified oligonucleotides exhibit excellent binding affinity towards the complementary single-stranded RNA and DNA. Furthermore, even a single GuNA[NMe] modification provides robust enzymatic stability, similar to that achieved by the well-established phosphorothioate backbone modification. These data indicate that such a GuNA[NMe] represents a valuable modification for the development of therapeutic oligonucleotides.
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N
-methylguanidine-bridged nucleic acid (GuNA[NMe]), a guanidine-bridged nucleic acid (GuNA) bearing a methyl substituent at the bridge, was successfully synthesised and incorporated into oligonucleotides. By employing an acetyl protecting group, GuNA[NMe]-modified oligonucleotides bearing acid-sensitive purine nucleobases were successfully prepared. The obtained GuNA[NMe]-modified oligonucleotides exhibit excellent binding affinity towards the complementary single-stranded RNA and DNA. Furthermore, even a single GuNA[NMe] modification provides robust enzymatic stability, similar to that achieved by the well-established phosphorothioate backbone modification. These data indicate that such a GuNA[NMe] represents a valuable modification for the development of therapeutic oligonucleotides.
The GuNA[NMe]-modified oligonucleotides exhibited excellent duplex-forming ability towards the complementary single-stranded DNA and RNA, and showed robust enzymatic stability.</abstract><doi>10.1039/c8ob01307a</doi><tpages>6</tpages></addata></record> |
| fulltext | fulltext |
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| ispartof | Organic & biomolecular chemistry, 2018-09, Vol.16 (35), p.6531-6536 |
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| recordid | cdi_rsc_primary_c8ob01307a |
| source | Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection |
| title | Facile synthesis and fundamental properties of an -methylguanidine-bridged nucleic acid (GuNA[NMe]) |
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